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Book Cover
E-book
Author Sun, Zhili

Title Satellite networking : principles and protocols / Zhili Sun
Edition Second edition
Published Chicheter, West Sussex, England : Wiley, 2014
©2014

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Description 1 online resource
Contents 880-01 Note continued: 3.7.2. UPC and NPC -- 3.7.3. Priority Control and Congestion Control -- 3.7.4. Traffic Shaping -- 3.7.5. Generic Cell Rate Algorithm (GCRA) -- 3.7.6. Leaky Bucket Algorithm (LBA) -- 3.7.7. Virtual Scheduling Algorithm (VSA) -- 3.8. Internet Protocols -- 3.8.1. Internet Networking Basics -- 3.8.2. Protocol Hierarchies -- 3.8.3. Connectionless Network Layer -- 3.8.4. IP Packet Format -- 3.8.5. IP Address -- 3.8.6. Mapping Between Internet and Physical Network Addresses -- 3.8.7. ARP, RARP and HDCP -- 3.9. Internet Routing Protocols -- 3.9.1. Interior Gateway Routing Protocol (IGRP) -- 3.9.2. Exterior Gateway Routing Protocol (EGRP) -- 3.10. Transport Layer Protocols: TCP and UDP -- 3.10.1. Transmission Control Protocol (TCP) -- 3.10.2. TCP Segment Header Format -- 3.10.3. Connection Set Up and Data Transmission -- 3.10.4. Congestion and Flow Control -- 3.10.5. User Datagram Protocol (UDP) -- 3.11. IP and ATM Internetworking -- 3.11.1. Packet Encapsulation -- 3.11.2. IP and ATM Address Resolution -- Further Readings -- Exercises -- 4.1. Networking Concepts -- 4.2. Networking Terminology -- 4.2.1. Private Network -- 4.2.2. Public Network -- 4.2.3. Quality Aspects of Telephony Services -- 4.2.4. IP Based Network -- 4.3. Network Elements and Connections -- 4.3.1. Network Terminals -- 4.3.2. Network Nodes -- 4.3.3. Network Connections -- 4.3.4. End-to-End Paths -- 4.3.5. Reference Configurations -- 4.4. Network Traffic and Signalling -- 4.4.1. User Traffic and Network Services -- 4.4.2. Signalling Systems and Signalling Traffic -- 4.4.3. In-band Signalling -- 4.4.4. Out-of-Band Signalling -- 4.4.5. Associated and Disassociated Channel Signalling -- 4.4.6. Network Management -- 4.4.7. Network Operation Systems and Mediation Functions -- 4.5. Access and Transit Transmission Networks -- 4.5.1. Analogue Telephony Networks -- 4.5.2. Telephony Network Traffic Engineering Concept -- 4.5.3. Access to Satellite Networks in the Frequency Domain -- 4.5.4. On-Board Circuit Switching -- 4.6. Digital Telephony Networks -- 4.6.1. Digital Multiplexing Hierarchy -- 4.6.2. Satellite Digital Transmission and On-Board Switching -- 4.6.3. Plesiochronous Digital Hierarchy (PDH) -- 4.6.4. Limitations of PDH -- 4.7. Synchronous Digital Hierarchy (SDH) -- 4.7.1. Development of SDH -- 4.7.2. SDH Standards -- 4.7.3. Mapping from PDH to SDH -- 4.7.4. Benefits of SDH -- 4.7.5. Synchronous Operation -- 4.7.6. Synchronous Optical Network (SONET) -- 4.7.7. SDH Over Satellite [--] The Intelsat Scenarios -- 4.8. Hypothetical References for Satellite Networks -- 4.8.1. ITU-T Hypothetical Reference Connection (HRX) -- 4.8.2. ITU-R Hypothetical Reference Digital Path (HRDP) for Satellite -- 4.8.3. Performance Objectives -- 4.9. Satellites and MANET -- 4.9.1. Networking Scenarios -- 4.10. Interworking with Heterogeneous Networks -- 4.10.1. Services -- 4.10.2. Addressing -- 4.10.3. Routing -- 4.10.4. Evolution -- Further Readings -- Exercises -- 5.1. Background -- 5.1.1. Networking Issues -- 5.1.2. Satellite Services in the B-ISDN Networking Environment -- 5.2. Design Issues of Satellite B-ISDN ATM Systems -- 5.2.1. Propagation Delay -- 5.2.2. Attenuation and Constraints -- 5.3. GEO Satellite B-ISDN ATM Networking Architecture -- 5.3.1. Ground Segment -- 5.3.2. Space Segment -- 5.3.3. Satellite Bandwidth Resource Management -- 5.3.4. Connection Admission Control (CAC) -- 5.3.5. Network Policing Functions -- 5.3.6. Reactive Congestion Control -- 5.4. Advanced Satellite B-ISDN ATM Networks -- 5.4.1. Radio Access Layer -- 5.4.2. On-Board Processing (OBP) Characteristics -- 5.4.3. B-ISDN ATM On-Board Switch -- 5.4.4. Multibeam Satellites -- 5.4.5. LEO/MEO Satellite Constellations -- 5.4.6. Inter-Satellite Links (ISL) -- 5.4.7. Mobility Management -- 5.4.8. Use of Higher Frequency Spectrum -- 5.5. B-ISDN ATM Performance -- 5.5.1. Layered Model of Performance for B-ISDN -- 5.5.2. Network Performance Parameters -- 5.5.3. Impact of Satellite Burst Errors on the ATM Layer -- 5.5.4. Impact of Burst Errors on AAL Protocols -- 5.5.5. Error Control Mechanisms -- 5.5.6. Enhancement Techniques for Broadband Satellite Networks -- 5.6. Evolution of Broadband Satellite Systems -- Further Readings -- Exercises -- 6.1. Different Viewpoints of Satellite Networking -- 6.1.1. Protocol-centric Viewpoint of Satellite IP Network -- 6.1.2. Satellite-centric Viewpoint of Global Networks and the Internet -- 6.1.3. Network-centric Viewpoint of Satellite Networks -- 6.2. IP Packet Encapsulation -- 6.2.1. Basic Concepts -- 6.2.2. High-level Data Link Control (HDLC) Protocol -- 6.2.3. Point-to-Point Protocol (PPP) -- 6.2.4. Media Access Control -- 6.2.5. IP Over Satellite -- 6.3. Satellite IP Networking -- 6.3.1. Routing On-Board Satellites -- 6.3.2. IP Mobility in Satellite Networks -- 6.3.3. Address Resolution -- 6.4. IP Multicast Over Satellite -- 6.4.1. IP Multicast Concepts -- 6.4.2. IP Multicast Addressing -- 6.4.3. Multicast Group Management -- 6.4.4. IP Multicast Routing -- 6.4.5. IP Multicast Scope -- 6.4.6. IGMP Behaviour in Satellite Environments -- 6.4.7. Multicast Routing Protocols in Satellite Environments -- 6.4.8. Reliable Multicast Protocols Over Satellites -- 6.5. Basic Network Security Mechanisms -- 6.5.1. Security Approaches -- 6.5.2. Single-direction Hashing Functions -- 6.5.3. Symmetrical Codes (With Secret Keys) -- 6.5.4. Asymmetrical Codes (With Public/Private Keys) -- 6.6. Satellite Networking Security -- 6.6.1. IP Security (IPsec) -- 6.6.2. Firewall and VPN -- 6.6.3. IP Multicast Security -- 6.7. Internet Quality of Service (IP QoS) -- 6.7.1. Layered Model of Performance for IP Service -- 6.7.2. IP Packet Transfer Performance Parameters -- 6.7.3. IP Network Performance Objectives for QoS Classes -- 6.7.4. Guidance on IP QoS Class Usage -- 6.8. Integrated Services (Intserv) Architectures for QoS -- 6.8.1. Integrated Services Architecture (ISA) Principles -- 6.8.2. Resource Reservation Protocol (RSVP) -- 6.8.3. Intsery Service Classes -- 6.9. Differentiated Services (Diffserv) for QoS -- 6.9.1. Diffsery Architecture -- 6.9.2. Traffic Classification -- 6.9.3. Traffic Conditioning -- 6.9.4. Diffsery Per Hop Behaviour (PHB) -- 6.9.5. Supporting Intsery Across the Satellite Network Diffsery Domain -- 6.10. DVB Over Satellite -- 6.10.1. MPEG-2 Source Coding and Multiplexing DVB-S Streams -- 6.10.2. DVB-S System -- 6.10.3. DVB Security -- 6.10.4. Conditional Access in DVB-S -- 6.10.5. DVB-RCS Interactive Service and IP over DVB -- 6.10.6. DVB-RCS Security -- 6.10.7. IP Multicast Security -- 6.11. DVB-S and DVB-RCS Network Architecture -- 6.11.1. On-Board Processor (OBP) -- 6.11.2. Management Station (MS) -- 6.11.3. Regenerative Satellite Gateway (RSGW) -- 6.11.4. Return Channel Satellite Terminal (RCST) -- 6.11.5. Network Interface -- 6.11.6. Network System Characteristics -- 6.12. Network Protocol Stack Architecture -- 6.13. Physical Layer (PHY) -- 6.13.1. Up-link (DVB-RCS Compliant) -- 6.13.2. Time Slots -- 6.13.3. Frames -- 6.13.4. Superframes -- 6.13.5. Carrier Type and Frame Composition -- 6.13.6. Uplink MF-TDMA Channel Frequency Plan -- 6.13.7. Downlink (DVB-S Compliant) -- 6.13.8. RCS Terminal (RCST) Transmission -- 6.14. Satellite MAC (SMAC) Layer -- 6.14.1. Transport Mechanisms -- 6.14.2. MPEG-2, DVB-S and DVB-RCS Tables -- 6.15. Multi Protocol Encapsulation (MPE) -- 6.16. Satellite Link Control Layer -- 6.16.1. Session Control -- 6.16.2. Resource Control -- 6.16.3. Capacity Request Categories -- 6.16.4. Connection Control -- 6.17. Quality of Service (QoS) -- 6.17.1. Traffic Classes -- 6.17.2. Flow Classification -- 6.17.3. Link Layer Connection QoS Adaptation -- 6.18. Network Layer -- 6.18.1. IP Routing and Address Resolution -- 6.18.2. IP Multicast [--] Star and Mesh Configurations -- Further Readings -- Exercises -- 7.1. Introduction -- 7.1.1. Application Characteristics -- 7.1.2. Client and Server Host Parameters -- 7.1.3. Satellite Network Configurations -- 7.1.4. TCP and Satellite Channel Characteristics -- 7.1.5. TCP Flow Control, Congestion Control and Error Recovery -- 7.2. TCP Performance Analysis -- 7.2.1. First TCP Segment Transmission -- 7.2.2. TCP Transmission in the Slow-start Stage -- 7.2.3. TCP Transmission in the Congestion Avoidance Stage -- 7.3. Slow-start Enhancement for Satellite Networks -- 7.3.1. TCP for Transactions -- 7.3.2. Slow-start and Delayed Acknowledgement (ACK) -- 7.3.3. Larger Initial Window -- 7.3.4. Terminating Slow-start -- 7.4. Loss Recovery Enhancement -- 7.4.1. Fast Retransmission and Fast Recovery -- 7.4.2. Selective Acknowledgement (SACK) -- 7.4.3. SACK Based Enhancement Mechanisms -- 7.4.4. ACK Congestion Control -- 7.4.5. ACK Filtering -- 7.4.6. Explicit Congestion Notification -- 7.4.7. Detecting Corruption Loss -- 7.4.8. Congestion Avoidance Enhancement Policy -- 7.5. Enhancements for Satellite Networks Using Interruptive Mechanisms -- 7.5.1. TCP Spoofing -- 7.5.2. Cascading TCP or Split TCP -- 7.5.3. Other Considerations for Satellite Networking -- 7.6. Impacts on Applications -- 7.6.1. Bulk Data Transfer -- 7.6.2. Interactive Applications -- 7.6.3. Distributed Caching for Internet Services and Applications -- 7.6.4. Web Caching in Satellite Networks
880-01/(S Machine generated contents note: 1.1. Applications and Services of Satellite Networks -- 1.1.1. Roles of Satellite Networks -- 1.1.2. Network Software and Hardware -- 1.1.3. Satellite Network Interfaces -- 1.1.4. Network Services -- 1.1.5. Applications -- 1.2. ITU-R Definitions of Satellite Services -- 1.2.1. Fixed Satellite Service (FSS) -- 1.2.2. Mobile Satellite Service (MSS) -- 1.2.3. Broadcasting Satellite Service (BSS) -- 1.2.4. Other Satellite Services -- 1.3. ITU-T Definitions of Network Services -- 1.3.1. Interactive Services -- 1.3.2. Distribution Services -- 1.4. Internet Services and Applications -- 1.4.1. World Wide Web (WWW) -- 1.4.2. File Transfer Protocol (FTP) -- 1.4.3. Telnet -- 1.4.4. Electronic Mail (email) -- 1.4.5. Multicast and Content Distribution -- 1.4.6. Voice over Internet Protocol (VoIP) -- 1.4.7. Domain Name System (DNS) -- 1.5. Circuit-switching Network -- 1.5.1. Connection Set Up -- 1.5.2. Signalling -- 1.5.3. Transmission Multiplexing Hierarchy based on FDM -- 1.5.4. Transmission Multiplexing Hierarchy based on TDM -- 1.5.5. Space Switching and Time Switching -- 1.5.6. Coding Gain of Forward Error Correction (FEC) -- 1.6. Packet-switching Networks -- 1.6.1. Connection-oriented Approach -- 1.6.2. Connectionless Approach -- 1.6.3. Relationship between Circuit-switching and Packet-switching -- 1.6.4. Considerations of Packet Network Designs -- 1.6.5. Packet Header and Payload -- 1.6.6. Complexity and Heterogeneous Networks -- 1.6.7. Performance of Packet Transmissions -- 1.6.8. Impact of Bit Level Errors on Packet Level -- 1.7. OSI/ISO Reference Model -- 1.7.1. Protocol Terminology -- 1.7.2. Layering Principle -- 1.7.3. Functions of the Seven Layers -- 1.7.4. Fading of the OSI/ISO Reference Model -- 1.8. ATM Protocol Reference Model -- 1.8.1. Narrowband ISDN (N-ISDN) -- 1.8.2. Broadband ISDN (B-ISDN) -- 1.8.3. ATM Technology -- 1.8.4. Reference Model -- 1.8.5. Problems: Lack of Available Services and Applications -- 1.9. Internet Protocols Reference Model -- 1.9.1. Network Layer: IP Protocol -- 1.9.2. Network Technologies -- 1.9.3. Transport Layer: TCP and UDP -- 1.9.4. Application Layer -- 1.9.5. QoS and Control on Resources -- 1.10. Satellite Network -- 1.10.1. Access Network -- 1.10.2. Transit Network -- 1.10.3. Broadcast Network -- 1.10.4. Space Segment -- 1.10.5. Ground Segment -- 1.10.6. Satellite Orbits -- 1.10.7. Satellite Transmission Frequency Bands -- 1.11. Characteristics of Satellite Networks -- 1.11.1. Propagation Delay -- 1.11.2. Propagation Loss and Power Limited -- 1.11.3. Orbit Space and Bandwidth Limited for Coverage -- 1.11.4. Operational Complexity for LEO -- 1.12. Channel Capacity of Digital Transmissions -- 1.12.1. Nyquist Formula for Noiseless Channels -- 1.12.2. Shannon Theorem for Noise Channels -- 1.12.3. Channel Capacity Boundary -- 1.12.4. Shannon Power Limit ( -1.6 dB) -- 1.12.5. Shannon Bandwidth Efficiency for Large Eb/N0 -- 1.13. Internetworking with Terrestrial Networks -- 1.13.1. Repeaters at the Physical Layer -- 1.13.2. Bridges at the Link Layer -- 1.13.3. Switches at the Physical, Link and Network Layers -- 1.13.4. Routers for Interconnecting Heterogeneous Networks -- 1.13.5. Protocol Translation, Stacking and Tunnelling -- 1.13.6. Quality of Service (QoS) -- 1.13.7. End-user QoS Class and Requirements -- 1.13.8. Network Performance -- 1.13.9. QoS and NP for Satellite Networking -- 1.14. Digital Video Broadcasting (DVB) -- 1.14.1. DVB Standards -- 1.14.2. Transmission System -- 1.14.3. Adaptation to Satellite Transponder Characteristics -- 1.14.4. Channel Coding -- 1.14.5. Reed[--]Solomon (RS) Outer Coding, Interleaving and Framing -- 1.14.6. Inner Convolutional Coding -- 1.14.7. Baseband Shaping and Modulation -- 1.14.8. Error Performance Requirements -- 1.15. DVB-S Satellite Delivery -- 1.15.1. MPEG-2 Baseband Processing -- 1.15.2. Transport Stream (TS) -- 1.15.3. Service Objectives -- 1.15.4. Satellite Channel Adaptation -- 1.15.5. DVB Return Channel over Satellite (DVB-RCS) -- 1.15.6. TCP/IP over DWI -- 1.16. DVB Satellite [--] Second Generation (DVB-S2) -- 1.16.1. Technology Novelty in the DVB-S2 -- 1.16.2. Transmission System Architecture -- 1.16.3. Error Performance -- 1.17. DVB Satellite Services to Handheld Devices (DVB-SH) -- 1.17.1. Transmission System Architecture -- 1.17.2. Common Functions for both TDM and OFDM Modes -- 1.17.3. Functions for Single Carrier (TDM) Mode -- 1.17.4. Functions for Multi Carrier (OFDM) Mode -- 1.17.5. DVB-RCS2 -- 1.18. Historical Development of Computer and Data Networks -- 1.18.1. Dawn of the Computer and Data Communications Age -- 1.18.2. Development of Local Area Networks (LANs) -- 1.18.3. Development of WANs and ISO/OSI -- 1.18.4. Birth of the Internet -- 1.18.5. Integration of Telephony and Data Networks -- 1.18.6. Development of Broadband Integrated Networks -- 1.18.7. Killer Application WWW and Internet Evolutions -- 1.19. Historical Development of Satellite Communications -- 1.19.1. Start of Satellite and Space Eras -- 1.19.2. Early Satellite Communications: TV and Telephony -- 1.19.3. Development of Satellite Digital Transmission -- 1.19.4. Development of Direct-to-Home (DTH) Broadcast -- 1.19.5. Development of Satellite Maritime Communications -- 1.19.6. Satellite Communications in Regions and Countries -- 1.19.7. Satellite Broadband Networks and Mobile Networks -- 1.19.8. Internet over Satellite Networks -- 1.20. Convergence of Network Technologies and Protocols -- 1.20.1. Convergence of Services and Applications in User Terminals -- 1.20.2. Convergence of Network Technologies -- 1.20.3. Convergence of Network Protocols -- 1.20.4. Satellite Network Evolution -- Further Readings -- Exercises -- 2.1. Laws of Physics -- 2.1.1. Kepler's Three Laws -- 2.1.2. Newton's Three Laws of Motion and The Universal Law of Gravity -- 2.1.3. Kepler's First Law: Satellite Orbits -- 2.1.4. Kepler's Second Law: Area Swept by a Satellite Vector -- 2.1.5. Kepler's Third Law: Orbit Period -- 2.1.6. Satellite Velocity -- 2.2. Satellite Orbit Parameters -- 2.2.1. Semi-Major Axis (a) -- 2.2.2. Eccentricity (e) -- 2.2.3. Inclination of Orbit (i) -- 2.2.4. Right Ascension of the Node (σ) and Argument of Perigee (ω) -- 2.3. Useful Orbits -- 2.3.1. Geosynchronous Earth Orbits -- 2.3.2. Geostationary Earth Orbits (GEOs) -- 2.3.3. High Elliptical Orbits (HEOs) -- 2.3.4. Notations of Low Earth Orbit (LEO) Satellite Constellations -- 2.3.5. Orbital Perturbations -- 2.3.6. Satellite Altitude and Coverage -- 2.3.7. Antenna Gain and Beam-width Angle -- 2.3.8. Coverage Calculations -- 2.3.9. Distance and Propagation Delay from Earth Station to Satellite -- 2.4. Satellite Link Characteristics and Modulations for Transmissions -- 2.4.1. Satellite Link Characteristics -- 2.4.2. Modulation Techniques -- 2.4.3. Phase Shift Keying (PSK) Schemes for Satellite Transmissions -- 2.4.4. Binary Phase Shift Keying (BPSK) -- 2.4.5. Quadrature PSK (QPSK) -- 2.4.6. Gaussian-filtered Minimum Shift Keying (GMSK) -- 2.4.7. Bit Error Rate (BER): the Quality Parameter of Modulation Schemes -- 2.4.8. Satellite Networking in the Physical Layer -- 2.5. Forward Error Correction (FEC) -- 2.5.1. Linear Block Codes -- 2.5.2. Cyclic Codes -- 2.5.3. Trellis Coding and Convolutional Codes -- 2.5.4. Concatenated Codes -- 2.5.5. Turbo Codes -- 2.5.6. Performance of FEC -- 2.6. Multiple Access Techniques -- 2.6.1. Frequency Division Multiple Access (FDMA) -- 2.6.2. Time Division Multiple Access (TDMA) -- 2.6.3. Code Division Multiple Access (CDMA) -- 2.6.4. Comparison of FDMA, TDMA and CDMA -- 2.7. Bandwidth Allocation -- 2.7.1. Fixed Assignment Access -- 2.7.2. Demand Assignment -- 2.7.3. Random Access -- 2.8. Satellite Networking Issues -- 2.8.1. Single-hop Satellite Connections -- 2.8.2. Multi-hop Satellite Connections -- 2.8.3. Inter-satellite Links (ISL) -- 2.8.4. Handovers -- 2.8.5. Satellite Intra-beam and Inter-beam Handovers -- 2.8.6. Earth Fixed Coverage versus Satellite Fixed Coverage -- 2.8.7. Routing within a Constellation of Satellite Networks -- 2.8.8. Internetworking -- 2.8.9. Satellite Availability and Diversity -- Further Readings -- Exercises -- 3.1. ATM Protocol and Fundamental Concepts -- 3.1.1. Packetisation Delay -- 3.1.2. Queuing Delay -- 3.1.3. Compromise Solution Between North America and Europe -- 3.2. ATM Layer -- 3.2.1. GFC Field -- 3.2.2. VPI and VCI Fields -- 3.2.3. CLP Field -- 3.2.4. PT Field -- 3.2.5. HEC Field -- 3.3. ATM Adaptation Layer (AAL) -- 3.3.1. AAL1 for Class A -- 3.3.2. AAL2 for Class B -- 3.3.3. AAL3/4 for Classes C and D -- 3.3.4. AAL5 for Internet Protocol -- 3.4. Physical Layer -- 3.4.1. Physical Medium (PM) Sublayers -- 3.4.2. Transmission Convergence (TC) Sublayer -- 3.4.3. ATM Cell Transmissions -- 3.5. ATM Interfaces and ATM Networking -- 3.5.1. User[--]Network Access -- 3.5.2. Network Node Interconnections -- 3.5.3. ATM DXI -- 3.5.4. B-ICI -- 3.5.5. Permanent Virtual Connections versus Switched Virtual Connections -- 3.5.6. ATM Signalling -- 3.5.7. ATM Addressing -- 3.5.8. Address Registration -- 3.6. Network Traffic, QoS and Performance Issues -- 3.6.1. Traffic Descriptors -- 3.6.2. QoS Parameters -- 3.6.3. Performance Issues -- 3.7. Network Resource Management -- 3.7.1. Connection Admission Control (CAC)
Note continued: 7.7. Real-time Transport Protocol (RTP) -- 7.7.1. Basics of RTP -- 7.7.2. RTP Control Protocol (RTCP) -- 7.7.3. Sender Report (SR) Packets -- 7.7.4. Receiver Report (RR) Packets -- 7.7.5. Source Description (SDES) RTCP Packet -- 7.7.6. SAP and SIP Protocols for Session Initiations -- 7.7.7. Session Directory Service (SDS) -- 7.8. Voice over IP -- 7.8.1. Gateway Decomposition -- 7.8.2. Protocols -- 7.8.3. Gatekeepers -- 7.8.4. Multimedia Conferencing (MMC) -- 7.8.5. Conference Control -- Further Readings -- Exercises -- 8.1. Introduction -- 8.2. New Services and Applications -- 8.2.1. Internet Integrated Services -- 8.2.2. Elastic and Inelastic Traffic -- 8.2.3. QoS Provision and Network Performance -- 8.3. Traffic Modelling and Characterisation -- 8.3.1. Traffic Engineering Techniques -- 8.3.2. Traffic Modelling -- 8.3.3. Statistical Methods for Traffic Modelling -- 8.3.4. Renewal Models -- 8.3.5. Markov Models -- 8.3.6. Fluid Models -- 8.3.7. Auto-regressive and Moving Average Models -- 8.3.8. Self-similar Models -- 8.4. Nature of Internet Traffic -- 8.4.1. World Wide Web (WWW) -- 8.4.2. Pareto Distribution Model for Self-similar Traffic -- 8.4.3. Fractional Brownian Motion (FBM) Process -- 8.4.4. Consideration of User Behaviour in Traffic Modelling -- 8.4.5. Voice Traffic Modelling -- 8.4.6. On-off Model for Voice Traffic -- 8.4.7. Video Traffic Modelling -- 8.4.8. Multi-layer Modelling for WWW Traffic -- 8.5. Traffic Engineering -- 8.5.1. Traffic Engineering Principles -- 8.5.2. Internet Traffic Engineering -- 8.6. Multi-protocol Label Switching (MPLS) -- 8.6.1. MPLS Forwarding Paradigm -- 8.6.2. MPLS Basic Operation -- 8.6.3. MPLS and Diffsery Interworking -- 8.6.4. MPLS and ATM Interworking -- 8.6.5. MPLS with Traffic Engineering (MPLS-TE) -- 8.7. Internet Protocol Version 6 (IPv6) -- 8.7.1. Basics of Internet Protocol Version 6 (IPv6) -- 8.7.2. IPv6 Addressing -- 8.7.3. IPv6 Networks over Satellites -- 8.7.4. IPv6 Transitions -- 8.7.5. IPv6 Tunnelling Through Satellite Networks -- 8.7.6. 6to4 Translation via Satellite Networks -- 8.7.7. Issues with 6to4 -- 8.7.8. Future Development of Satellite Networking -- Further Readings -- Exercises
Summary "This book provides up to date coverage of the basics of ATM and internet protocols, and characteristics of satellite networks and internetworking between satellite and terrestrial networksSatellite Networking: Principles and Protocols, Second Edition provides up to date information of the original topics in satellite networking and protocols focusing on Internet Protocols (IP) over satellites, broadband over satellites, next generation IP (IPv6) over satellites, new generation of DVB-S/S2 and DVB-RCS next generations and new services and applications. It also includes some analytical techniques for evaluation of end to end IP performance and QoS over satellite, reflecting the recent convergence of telecommunication, Internet, broadcasting and mobile networks. Topics new to this edition: Internetworking with MANET, DVB-S/S2 and DVB-RCS/RCS2 (including TCP/IP over DVB-S/RCS), recent developments in broadband satellite systems, convergence of services and network technologies (including Internet, telecom, mobile, TV, etc.), radio resource management, PEP, I-PEP, SCPS, traffic modelling and engineering with analysis and examples, and future developments of satellite networking. Provides up to date coverage of the basics of ATM and internet protocols, and characteristics of satellite networks and internetworking between satellite and terrestrial networks (e.g. mobile ad hoc networks), including coverage of new services and applications (e.g. Internet, telecom, mobile and TV) Discusses the real-time protocols including RTP, RTCP and SIP for real-time applications such as VoIP and MMC, and explains TCP/IP over satellite and evolution of IPv6 over satellite and beyond Includes PowerPoint slides for lecturers as well as problems to encourage readers' understanding of concepts and principles as well as an accompanying website containing a solutions manual and further exercises "-- Provided by publisher
"Discusses the real-time protocols including RTP, RTCP and SIP for real-time applications such as VoIP and MMC, and explains TCP/IP over satellite and evolution of IPv6 over satellite and beyond"-- Provided by publisher
Bibliography Includes bibliographical references and index
Notes Copyright © John Wiley & Sons
Print version record and CIP data provided by publisher
Subject Artificial satellites in telecommunication.
Computer network protocols.
Internetworking (Telecommunication)
communications satellites.
SCIENCE -- Waves & Wave Mechanics.
Artificial satellites in telecommunication
Computer network protocols
Internetworking (Telecommunication)
Form Electronic book
LC no. 2014002858
ISBN 9781118856758
1118856759
9781118856765
1118856767
1118351606
9781118351604